Sixty strains of thermoacidophilic bacteria have been isolated from soil and water samples obtained from various acidic environments in Japan. An initial comparative sequence analysis of the hypervariable regions of the 16S rDNA revealed that all strains could be assigned to the Alicyclobacillus acidocaldarius- Alicyclobacillus genomic species 1 group, which could be further subdivided into three clusters (Clusters I-III). On the basis of phenotypic characteristics, chemotaxonomic profiles, and phylogenetic data of six selected strains, five strains were identified as either A. acidocaldarius or Alicyclobacillus genomic species 1; however, one strain (MIH 332) could not be determined to belong to either of these species. 16S rDNA sequence homology values between strain MIH 332 and the reference strains of A. acidocaldarius (ATCC 27009(T)) and Alicyclobacillus genomic species 1 (DSM 11984) were 98.8% and 99.1%, respectively, which were higher than the corresponding similarity between the reference strains (98.4%). On the other hand, DNA-DNA hybridization levels between strain MIH 332 and the reference strains were 39% and 44%, respectively, which were lower than the value between the reference strains (59% or 65%). However, the phenotype of strain MIH 332 was also similar to those of the reference strains, and a typical phenotype could not be found for the strain, thus indicating that the strain may be a new genomic species of A. acidocaldarius, for which the name Alicyclobacillus genomic species 2 is tentatively proposed. The results of this study suggest that A. acidocaldarius and its related species are widely distributed in acidic environments in Japan, with slight regional variations in morphological and genotypic characteristics.
Three strains of thermophilic-acidophilic bacteria isolated previously from different hot springs in Japan were characterized by molecular genetic methods. The strategy taken involved PCR amplification, sequencing and restriction pattern analysis of 16S rDNA, 16S-23S rDNA spacer polymorphism analysis and genomic DNA-DNA hybridization. A phylogenetic analysis based on 16S rDNA sequences showed that the new thermoacidophilic isolates formed a genetically coherent group at the species level and fell into a major cluster together with members of the genera Alicyclobacillus and Sulfobacillus with A. acidocaldarius and A. acidoterrestris as their closest relatives. The levels of binary sequence similarity between the isolates and the two Alicyclobacillus species were 97.6 to 97.9%, values considered low enough to warrant placement of the isolates in a distinct species of the genus Alicyclobacillus. The 16S rDNA restriction pattern analysis, but not 16S-23S rDNA spacer polymorphism analysis, was useful for differentiating the isolates from the established Alicyclobacillus species. DNA-DNA hybridization assays demonstrated a distinct phylogenetic position of our isolates as a genospecies within the genus Alicyclobacillus. On the basis of these results, the thermoacidophilic isolates should be classified into a new species of Alicyclobacillus. The results of this study suggest that this new genospecies of Alicyclobacillus is widely distributed in hot springs in Japan.
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